0000000000529984

AUTHOR

Cristina Alcaide

0000-0002-7482-9810

showing 3 related works from this author

Modelling temperature-dependent dynamics of single and mixed infections in a plant virus

2022

Multiple viral infection is an important issue in health and agriculture with strong impacts on society and the economy. Several investigations have dealt with the population dynamics of viruses with different dynamic properties, focusing on strain competition during multiple infections and the effects on viruses’ hosts. Recent interest has been on how multiple infections respond to abiotic factors such as temperature (T). This is especially important in the case of plant pathogens, whose dynamics could be affected significantly by global warming. However, few mathematical models incorporate the effect of T on parasite fitness, especially in mixed infections. Here, we investigate simple mat…

Abiotic componenteducation.field_of_studybiologyMathematical modelCo-infection dynamicsApplied Mathematicsmedia_common.quotation_subjectPopulationTranscritical bifurcationsRNA virusAbiotic stressbiology.organism_classificationCompetition (biology)BifurcationsCompetition modelTranscritical bifurcationThermal reaction normsEvolutionary biologyNonlinear dynamicsModeling and SimulationPlant virusDynamical systemseducationmedia_commonApplied Mathematical Modelling
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Increasing growth temperature alters the within-host competition of viral strains and influences virus genetic variation

2020

AbstractThe emergence of viral diseases in plant crops hamper the sustainability of food production, and this may be boosted by global warming. Concurrently, mixed viral infections are becoming common in plants, of which epidemiology are unpredictable due to within-host virus-virus interactions. However, the extent in which the combined effect of variations in the abiotic components of the plant ecological niche (e.g., temperature) and the prevalence of mixed infections (i.e., within-host interactions among viruses) affect the evolutionary dynamics of viral populations is not well understood. Here, we explore the interplay between ecological and evolutionary factors during viral infections,…

Ecological nicheGeneticsGenetic diversityViral replicationHost (biology)virusesmedia_common.quotation_subjectGenetic variationBiologyEvolutionary dynamicsCompetition (biology)Virusmedia_common
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Increasing temperature alters the within-host competition of viral strains and influences virus genetic variability

2021

Environmental conditions can affect viral accumulation, virulence and adaptation, which have implications in the disease outcomes and efficiency of control measures. Concurrently, mixed viral infections are relevant in plants, being their epidemiology shaped by within-host virus–virus interactions. However, the extent in which the combined effect of variations in abiotic components of the plant ecological niche and the prevalence of mixed infections affect the evolutionary dynamics of viral populations is not well understood. Here, we explore the interplay between ecological and evolutionary factors during viral infections and show that isolates of two strains of Pepino mosaic potexvirus co…

0106 biological sciencesMixed infectionsvirusesPlant virusVirulenceBiologyEvolutionary ecology01 natural sciencesMicrobiology03 medical and health sciencesplant virusenvironmental factorsVirologyPlant virusgenetic variabilityEnvironmental factorsAcademicSubjects/MED00860Genetic variabilityEvolutionary dynamics030304 developmental biologyGenetics0303 health sciencesGenetic diversityHost (biology)mixed infectionsAcademicSubjects/SCI01130AcademicSubjects/SCI02285evolutionary ecologyGenetic variabilityEvolutionary ecologyAdaptationResearch Article010606 plant biology & botany
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